Angular State Management | Skills Pool
Angular State Management Master modern Angular state management with Signals, NgRx, and RxJS. Use when setting up global state, managing component stores, choosing between state solutions, or migrating from legacy patterns.
sickn33 33,802 星标 2026年4月13日 Comprehensive guide to modern Angular state management patterns, from Signal-based local state to global stores and server state synchronization.
When to Use This Skill
Setting up global state management in Angular
Choosing between Signals, NgRx, or Akita
Managing component-level stores
Implementing optimistic updates
Debugging state-related issues
Migrating from legacy state patterns
Do Not Use This Skill When
The task is unrelated to Angular state management
You need React state management → use react-state-management
Core Concepts
State Categories
Type Description Solutions Local State
快速安装
Angular State Management npx skillvault add sickn33/sickn33-antigravity-awesome-skills-plugins-antigravity-awesome-skills-claude-skills-angular-state-management-skill-md
星标 33,802
更新时间 2026年4月13日
职业 Component-specific, UI state
Shared State Between related components Signal services
Global State App-wide, complex NgRx, Akita, Elf
Server State Remote data, caching NgRx Query, RxAngular
URL State Route parameters ActivatedRoute
Form State Input values, validation Reactive Forms
Selection Criteria Small app, simple state → Signal Services
Medium app, moderate state → Component Stores
Large app, complex state → NgRx Store
Heavy server interaction → NgRx Query + Signal Services
Real-time updates → RxAngular + Signals
Quick Start: Signal-Based State
Pattern 1: Simple Signal Service // services/counter.service.ts
import { Injectable, signal, computed } from "@angular/core";
@Injectable({ providedIn: "root" })
export class CounterService {
// Private writable signals
private _count = signal(0);
// Public read-only
readonly count = this._count.asReadonly();
readonly doubled = computed(() => this._count() * 2);
readonly isPositive = computed(() => this._count() > 0);
increment() {
this._count.update((v) => v + 1);
}
decrement() {
this._count.update((v) => v - 1);
}
reset() {
this._count.set(0);
}
}
// Usage in component
@Component({
template: `
<p>Count: {{ counter.count() }}</p>
<p>Doubled: {{ counter.doubled() }}</p>
<button (click)="counter.increment()">+</button>
`,
})
export class CounterComponent {
counter = inject(CounterService);
}
Pattern 2: Feature Signal Store // stores/user.store.ts
import { Injectable, signal, computed, inject } from "@angular/core";
import { HttpClient } from "@angular/common/http";
import { toSignal } from "@angular/core/rxjs-interop";
interface User {
id: string;
name: string;
email: string;
}
interface UserState {
user: User | null;
loading: boolean;
error: string | null;
}
@Injectable({ providedIn: "root" })
export class UserStore {
private http = inject(HttpClient);
// State signals
private _user = signal<User | null>(null);
private _loading = signal(false);
private _error = signal<string | null>(null);
// Selectors (read-only computed)
readonly user = computed(() => this._user());
readonly loading = computed(() => this._loading());
readonly error = computed(() => this._error());
readonly isAuthenticated = computed(() => this._user() !== null);
readonly displayName = computed(() => this._user()?.name ?? "Guest");
// Actions
async loadUser(id: string) {
this._loading.set(true);
this._error.set(null);
try {
const user = await fetch(`/api/users/${id}`).then((r) => r.json());
this._user.set(user);
} catch (e) {
this._error.set("Failed to load user");
} finally {
this._loading.set(false);
}
}
updateUser(updates: Partial<User>) {
this._user.update((user) => (user ? { ...user, ...updates } : null));
}
logout() {
this._user.set(null);
this._error.set(null);
}
}
Pattern 3: SignalStore (NgRx Signals) // stores/products.store.ts
import {
signalStore,
withState,
withMethods,
withComputed,
patchState,
} from "@ngrx/signals";
import { inject } from "@angular/core";
import { ProductService } from "./product.service";
interface ProductState {
products: Product[];
loading: boolean;
filter: string;
}
const initialState: ProductState = {
products: [],
loading: false,
filter: "",
};
export const ProductStore = signalStore(
{ providedIn: "root" },
withState(initialState),
withComputed((store) => ({
filteredProducts: computed(() => {
const filter = store.filter().toLowerCase();
return store
.products()
.filter((p) => p.name.toLowerCase().includes(filter));
}),
totalCount: computed(() => store.products().length),
})),
withMethods((store, productService = inject(ProductService)) => ({
async loadProducts() {
patchState(store, { loading: true });
try {
const products = await productService.getAll();
patchState(store, { products, loading: false });
} catch {
patchState(store, { loading: false });
}
},
setFilter(filter: string) {
patchState(store, { filter });
},
addProduct(product: Product) {
patchState(store, ({ products }) => ({
products: [...products, product],
}));
},
})),
);
// Usage
@Component({
template: `
<input (input)="store.setFilter($event.target.value)" />
@if (store.loading()) {
<app-spinner />
} @else {
@for (product of store.filteredProducts(); track product.id) {
<app-product-card [product]="product" />
}
}
`,
})
export class ProductListComponent {
store = inject(ProductStore);
ngOnInit() {
this.store.loadProducts();
}
}
NgRx Store (Global State)
Setup // store/app.state.ts
import { ActionReducerMap } from "@ngrx/store";
export interface AppState {
user: UserState;
cart: CartState;
}
export const reducers: ActionReducerMap<AppState> = {
user: userReducer,
cart: cartReducer,
};
// main.ts
bootstrapApplication(AppComponent, {
providers: [
provideStore(reducers),
provideEffects([UserEffects, CartEffects]),
provideStoreDevtools({ maxAge: 25 }),
],
});
Feature Slice Pattern // store/user/user.actions.ts
import { createActionGroup, props, emptyProps } from "@ngrx/store";
export const UserActions = createActionGroup({
source: "User",
events: {
"Load User": props<{ userId: string }>(),
"Load User Success": props<{ user: User }>(),
"Load User Failure": props<{ error: string }>(),
"Update User": props<{ updates: Partial<User> }>(),
Logout: emptyProps(),
},
});
// store/user/user.reducer.ts
import { createReducer, on } from "@ngrx/store";
import { UserActions } from "./user.actions";
export interface UserState {
user: User | null;
loading: boolean;
error: string | null;
}
const initialState: UserState = {
user: null,
loading: false,
error: null,
};
export const userReducer = createReducer(
initialState,
on(UserActions.loadUser, (state) => ({
...state,
loading: true,
error: null,
})),
on(UserActions.loadUserSuccess, (state, { user }) => ({
...state,
user,
loading: false,
})),
on(UserActions.loadUserFailure, (state, { error }) => ({
...state,
loading: false,
error,
})),
on(UserActions.logout, () => initialState),
);
// store/user/user.selectors.ts
import { createFeatureSelector, createSelector } from "@ngrx/store";
import { UserState } from "./user.reducer";
export const selectUserState = createFeatureSelector<UserState>("user");
export const selectUser = createSelector(
selectUserState,
(state) => state.user,
);
export const selectUserLoading = createSelector(
selectUserState,
(state) => state.loading,
);
export const selectIsAuthenticated = createSelector(
selectUser,
(user) => user !== null,
);
// store/user/user.effects.ts
import { Injectable, inject } from "@angular/core";
import { Actions, createEffect, ofType } from "@ngrx/effects";
import { switchMap, map, catchError, of } from "rxjs";
@Injectable()
export class UserEffects {
private actions$ = inject(Actions);
private userService = inject(UserService);
loadUser$ = createEffect(() =>
this.actions$.pipe(
ofType(UserActions.loadUser),
switchMap(({ userId }) =>
this.userService.getUser(userId).pipe(
map((user) => UserActions.loadUserSuccess({ user })),
catchError((error) =>
of(UserActions.loadUserFailure({ error: error.message })),
),
),
),
),
);
}
Component Usage @Component({
template: `
@if (loading()) {
<app-spinner />
} @else if (user(); as user) {
<h1>Welcome, {{ user.name }}</h1>
<button (click)="logout()">Logout</button>
}
`,
})
export class HeaderComponent {
private store = inject(Store);
user = this.store.selectSignal(selectUser);
loading = this.store.selectSignal(selectUserLoading);
logout() {
this.store.dispatch(UserActions.logout());
}
}
RxJS-Based Patterns
Component Store (Local Feature State) // stores/todo.store.ts
import { Injectable } from "@angular/core";
import { ComponentStore } from "@ngrx/component-store";
import { switchMap, tap, catchError, EMPTY } from "rxjs";
interface TodoState {
todos: Todo[];
loading: boolean;
}
@Injectable()
export class TodoStore extends ComponentStore<TodoState> {
constructor(private todoService: TodoService) {
super({ todos: [], loading: false });
}
// Selectors
readonly todos$ = this.select((state) => state.todos);
readonly loading$ = this.select((state) => state.loading);
readonly completedCount$ = this.select(
this.todos$,
(todos) => todos.filter((t) => t.completed).length,
);
// Updaters
readonly addTodo = this.updater((state, todo: Todo) => ({
...state,
todos: [...state.todos, todo],
}));
readonly toggleTodo = this.updater((state, id: string) => ({
...state,
todos: state.todos.map((t) =>
t.id === id ? { ...t, completed: !t.completed } : t,
),
}));
// Effects
readonly loadTodos = this.effect<void>((trigger$) =>
trigger$.pipe(
tap(() => this.patchState({ loading: true })),
switchMap(() =>
this.todoService.getAll().pipe(
tap({
next: (todos) => this.patchState({ todos, loading: false }),
error: () => this.patchState({ loading: false }),
}),
catchError(() => EMPTY),
),
),
),
);
}
Server State with Signals
HTTP + Signals Pattern // services/api.service.ts
import { Injectable, signal, inject } from "@angular/core";
import { HttpClient } from "@angular/common/http";
import { toSignal } from "@angular/core/rxjs-interop";
interface ApiState<T> {
data: T | null;
loading: boolean;
error: string | null;
}
@Injectable({ providedIn: "root" })
export class ProductApiService {
private http = inject(HttpClient);
private _state = signal<ApiState<Product[]>>({
data: null,
loading: false,
error: null,
});
readonly products = computed(() => this._state().data ?? []);
readonly loading = computed(() => this._state().loading);
readonly error = computed(() => this._state().error);
async fetchProducts(): Promise<void> {
this._state.update((s) => ({ ...s, loading: true, error: null }));
try {
const data = await firstValueFrom(
this.http.get<Product[]>("/api/products"),
);
this._state.update((s) => ({ ...s, data, loading: false }));
} catch (e) {
this._state.update((s) => ({
...s,
loading: false,
error: "Failed to fetch products",
}));
}
}
// Optimistic update
async deleteProduct(id: string): Promise<void> {
const previousData = this._state().data;
// Optimistically remove
this._state.update((s) => ({
...s,
data: s.data?.filter((p) => p.id !== id) ?? null,
}));
try {
await firstValueFrom(this.http.delete(`/api/products/${id}`));
} catch {
// Rollback on error
this._state.update((s) => ({ ...s, data: previousData }));
}
}
}
Best Practices
Do's Practice Why Use Signals for local state Simple, reactive, no subscriptions Use computed() for derived data Auto-updates, memoized Colocate state with feature Easier to maintain Use NgRx for complex flows Actions, effects, devtools Prefer inject() over constructor Cleaner, works in factories
Don'ts Anti-Pattern Instead Store derived data Use computed() Mutate signals directly Use set() or update() Over-globalize state Keep local when possible Mix RxJS and Signals chaotically Choose primary, bridge with toSignal/toObservable Subscribe in components for state Use template with signals
Migration Path
From BehaviorSubject to Signals // Before: RxJS-based
@Injectable({ providedIn: "root" })
export class OldUserService {
private userSubject = new BehaviorSubject<User | null>(null);
user$ = this.userSubject.asObservable();
setUser(user: User) {
this.userSubject.next(user);
}
}
// After: Signal-based
@Injectable({ providedIn: "root" })
export class UserService {
private _user = signal<User | null>(null);
readonly user = this._user.asReadonly();
setUser(user: User) {
this._user.set(user);
}
}
Bridging Signals and RxJS import { toSignal, toObservable } from '@angular/core/rxjs-interop';
// Observable → Signal
@Component({...})
export class ExampleComponent {
private route = inject(ActivatedRoute);
// Convert Observable to Signal
userId = toSignal(
this.route.params.pipe(map(p => p['id'])),
{ initialValue: '' }
);
}
// Signal → Observable
export class DataService {
private filter = signal('');
// Convert Signal to Observable
filter$ = toObservable(this.filter);
filteredData$ = this.filter$.pipe(
debounceTime(300),
switchMap(filter => this.http.get(`/api/data?q=${filter}`))
);
}
Resources
Limitations
Use this skill only when the task clearly matches the scope described above.
Do not treat the output as a substitute for environment-specific validation, testing, or expert review.
Stop and ask for clarification if required inputs, permissions, safety boundaries, or success criteria are missing.
02
Do Not Use This Skill When